人体呼吸健康研究:N95过滤式面罩呼吸器的佩戴性能
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四川成都
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作者申胜男 等
出版社电子工业出版社
ISBN9787121396274
出版时间2020-12
装帧平装
开本16开
纸张胶版纸
定价109元
货号29175275
上书时间2023-05-15
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【内容简介】:
本书针对人类呼吸安全问题,运用商业软件及自主开发程序,从提高呼吸的舒适性和佩戴的舒适性两个角度全面而详细的研究了纤维对空气颗粒物的过滤性能、口罩内流场分布和口罩与人脸的接触特性,并提出了新型风扇口罩的设计和面部密封设计的新技术。本书全部内容具有原创性和前瞻性,部分研究成果发表在公共环境卫生行业的*期刊。本书的所有研究内容、方法和结果的科学性及可信度均得到同行专家认可,本书的研究将为控制和降低雾霾对中国民众呼吸健康造成的威胁提供可靠、有效的理论依据和指导。
【作者简介】:
申胜男,武汉大学动力与机械学院副教授,硕士生导师,分别于2001年和2007年获得哈尔滨工业大学的学士和硕士学位,2012年毕业于新加坡南阳理工大学,获机械工程专业博士学位。已发表国际SCI期刊论文50余篇,国际会议学术报告40余篇,授权发明专利9项,软件著作权3项。作者长期从事跨尺度多物理场耦合分析、生物流体力学的研究,以核心成员身份参加新加坡科技研究局基金项目2项,近年又主持国家科学自然基金青年项目1项,主持湖北省自然科学基金青年项目1项,主持武汉大学自主科研(青年教师)资助项目1项,主持武汉大学引进人才(优秀青年学术骨干)项目1项,项目金额共计570多万。2014年获批武汉大学"351人才计划”珞珈青年学者,2015年获批湖北省楚天学者。同时作者也积极开展国内外的学术交流与合作,也取得了丰硕的成果。直至今日,已和国内多所大学和研究机构建立了学术交流与合作关系,与新加坡南洋理工大学,德克萨斯理工大学保持着密切的联系,建立了实质性的科研合作关系,极大推动了学院学术交流的发展。
【目录】:
Chapter 1 Introduction 001
1.1 Background 002
1.2 Motivation 004
1.3 Outline 007
Chapter 2 Study of the filtration performance of multi-fiber filters 009
2.1 Introduction 011
2.2 Model of multi-fiber filters 014
2.2.1 Geometric model and simulation method of multi-fiber filters 014
2.2.2 Model validation 016
2.3 Filtration efficiency and its optimization 020
2.3.1 Comparison of filtration performance between parallel and
staggered designs 020
2.3.2 Filtration efficiency at different face velocities and particle
diameters 022
2.3.3 Filtration performance of layered filters with the same total SVF 024
2.3.4 Optimization of pressure drop and filtration efficiency 025
2.4 Conclusion 028
References 030
Chapter 3 Study of particle rebound and deposition on fiber surface 034
3.1 Introduction 036
3.2 Models of flow field and particle movement 041
3.2.1 Flow field and particle movement 041
3.2.2 Particle rebound model 044
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3.3 Particle transport and deposition 048
3.3.1 Effect of particle rebounds on particle deposition 048
3.3.2 Effects of face velocity on particle deposition 050
3.3.3 Effects of particle diameter on particle deposition 052
3.3.4 Filtration efficiency of a single fiber 054
3.4 Conclusion 057
References 059
Chapter 4 Investigation of the flow-field in the upper respiratory system
when wearing N95 FFR 064
4.1 Introduction 066
4.2 Modeling of full breathing cycles 068
4.2.1 Flow field reverse modeling 068
4.2.2 CFD simulation of a full breathing cycle 071
4.3 Flow field of a full breathing cycle 074
4.3.1 Flow characteristics of a full breathing cycle 074
4.3.2 CO2 volume fraction 075
4.3.3 Temperature distribution inside FFR cavity 077
4.3.4 Pressure and wall shear stress inside upper respiratory airway 079
4.4 Discussion 082
4.5 Conclusion 085
References 086
Chapter 5 Investigation of water vapor condensation on the inner surface
of N95 FFR 089
5.1 Introduction 091
5.2 CFD modeling of water vapor condensation 093
5.2.1 Model of water vapor condensation 093
5.2.2 CFD-setup and boundary conditions of water vapor condensation 093
5.3 Water vapor condensation on the inner surface of N95 FFR 097
5.3.1 Effects of different environmental temperatures 099
5.3.2 Effects of different breathing velocities 102
5.3.3 Effects of different breathing frequencies 104
5.4 Discussion 108
5.5 Conclusion 110
References 111
Chapter 6 Effect of vapor condensation on micro-climate in the deadspace
of N95 FFR 113
6.1 Introduction 115
6.2 CFD modeling of vapor condensation 117
6.2.1 Model of vapor condensation 117
6.2.2 CFD-setup and boundary conditions of vapor condensation 118
6.2.3 FFR performance and vapor condensation distribution 120
6.3 Experiment of micro-climate inside N95 FFR 126
6.3.1 Experiment of temperature and relative humidity measuring
inside FFR 127
6.3.2 Experiment of bacteria accounting on the inner surface of FFR 129
6.4 Conclusion 133
References 134
Chapter 7 Investigation of movement characteristics and respiratory
deposition of indoor cigarette particles 136
7.1 Introduction 138
7.2 Model of particle movement and respiratory deposition 141
7.2.1 Description of room, human and particles system 141
7.2.2 CFD model of cigarette particles deposition 143
7.2.3 PM2.5 measurement 146
7.3 Flow field and cigarette particles deposition 147
7.4 Conclusion 155
References 156
Chapter 8 An improved FFR design with a ventilation fan: CFD simulation
and validation 159
8.1 Introduction 161
8.2 Improved FFR design and CFD simulation 163
8.2.1 Improved FFR design 163
8.2.2 Simulation method of flow field in FFR 164
8.3 Performance of the ventilation fan and its effects 169
8.3.1 Flow characteristics of the ventilation fan 169
8.3.2 Effects of fan orientation 170
8.3.3 Experiment on temperature of headform and FFR 172
8.4 Conclusion 177
References 178
Chapter 9 Design of the FFR with an intelligent control fan 181
9.1 Introduction 183
9.2 Improved FFR design 184
9.3 Design of intelligent control system 186
9.4 Test results of FFR performance 189
9.5 Discussion 193
9.6 Conclusion 194
References 195
Chapter 10 Study of contact characteristics between a respirator
and a headform 196
10.1 Introduction 198
10.2 Models and methods of contact characteristics between a
respirator and a headform 202
10.2.1 Geometric models of headform and respirator 202
10.2.2 Simulation methods of contact characteristics 205
10.3 Contact characteristics between a respirator and a headform 208
10.4 Conclusion 214
References 216
Chapter 11 The effects of facial expressions on respirators fit 218
11.1 Introduction 220
11.2 Models and methods of facial expressions 223
11.2.1 FE models of the headfrom and respirator 223
11.2.2 Simulation methods of facial expressions 225
11.3 Effects of facial expressions on respirators fit 227
11.4 Conclusion 234
References 236
Chapter 12 Customized design and 3D printing of face seal for an N95 FFR 238
12.1 Introduction 240
12.2 Design, manufacture and test of customized face seals 242
12.2.1 3D laser scanning of human headform 243
12.2.2 Customized design of FFR face seal 243
12.2.3 3D printing of the FFR face seal 245
12.2.4 Experiment setup and procedures 245
12.3 Contact characteristics between the FFR and headform 249
12.4 Discussion 253
12.5 Conclusion 255
References 256
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